Jump to content

KDE PIM/Akonadi Next/Client API

From KDE Community Wiki
Revision as of 20:17, 1 December 2014 by Cmollekopf (talk | contribs) (Created page with " Loading: * Set load(Query) => A query is executed and a reactive set is returned. * TreeSet loadTree(Query) => Additionally to the query a tree structure is available in the ...")
(diff) ← Older revision | Latest revision (diff) | Newer revision → (diff)

Loading:

  • Set load(Query) => A query is executed and a reactive set is returned.
  • TreeSet loadTree(Query) => Additionally to the query a tree structure is available in the reactive set, so support tree models.
  • Future<Message> load(id)

Modifications:

  • create(Message)
  • modify(Message)
  • delete(id)

Probably a template mechanism is used to define the message type:

  • template <class T> T load(id)

Additionally to the wanted type the appropriate facade needs to be chosen based on the buffer type of the query result.

Interface Draft

class DomainObject {
    virtual void setFoo(QString);
    virtual QString foo() const;
};

class MessageBuffer {

};

class DomainAdapter : public DomainObject {
    virtual void setFoo(QString value)
    {
        mBuffer.setFoo(value);
    }

    virtual QString foo() const
    {
        return mBuffer.foo();
    }

    MessageBuffer mBuffer;
};

class FacadeFactory {
    StoreFacade getFacade(const QString &resource);
}


class Store {
    template <class DomainType>
    static Set<DomainType> load(Query);

    //Future load(id); => Set with single value
    template <class DomainType>
    static TreeSet<DomainType> loadTree(Query)
    {

    }

    //Sync methods for modifications

    template <class DomainType>
    static void create(const DomainType &domainObject, const String &resource) {
        StoreFacade facade = 

    }

    template <class Type>
    static void modify(const DomainType &domainObject) {

    }

    template <class Type>
    static void delete(const DomainType &domainObject) {

    }
}

//Translates between message type and domain object
template <typename ResourceType>
class StoreFacade {

};

Store Facade

The store is always accessed through a store-type specific facade, which hides:

  • store access (one store could use a database, and another one plain files)
  • message type (flatbuffers, ...)
  • Theoretically we could also include the index, which would allow us to have store specific indexes. However, that way we would require one query per store.
class StoreFacade {
    Message load(id);
    void store(Message);
}

Message adaptor

A message adaptor interface is implemented for each domain type. This interface has a default implementation for each property like this:

virtual setFoo(value) {
  setProperty("foo", value);
}

virtual foo() {
  return property("foo");
}

setProperty()/property() must be implemented by every message, resulting in a generic key value store by default (inefficient to load since we have to load everything to load a single value). If the message implementation implements the individual properties it gets efficient loading of values. This way the domain objects can evolve without forcing n message schemas to be updated while we can stil guarantee that all properties work at least local only.